Laminar free convection boundary layer flow of a thermomicropolar fluid past a non-isothermal
vertical flat plate has been studied in detail. It has been established that the flow problem has similarity
solutions when the variation in fhe kvnperature of the plate is a linear function of the distance from the
leading edge measured along the plate. The resulting system of the nonlinear ordinary differential equations
has been solved numerically by “Shooting Method” for various values of the material parameters. The
effects of these parameters has been studied on the velocity and microrotation fields graphically. Also
“Tables” have been given for the values of temperature, skin-friction parameter, microrotation gradient on
the wall and Nusselt number. Two types of boundary conditions are prescribed for the microrotation on the
wall.